AIDR 3D

Personalized Dose Management

AIDR 3D has been developed as the next step in the evolution of noise reduction technology.
AIDR 3D, Adaptive Iterative Dose Reduction, is designed to lower radiation dose and maximize image quality all with accelerated workflow.
Integrated into SUREExposure3D settings, this iterative algorithm removes noise in the raw and image data space, by analyzing and the processing the data repeatedly.

Personalized Dose Management

AIDR 3D has been developed as the next step in the evolution of noise reduction technology.
AIDR 3D, Adaptive Iterative Dose Reduction, is designed to lower radiation dose and maximize image quality all with accelerated workflow.
Integrated into SUREExposure3D settings, this iterative algorithm removes noise in the raw and image data space, by analyzing and the processing the data repeatedly.

Adaptive and Integrated Dose Management

In order to achieve the highest quality images, with reduced dose levels, the Aquilion ONE Family implements an array of adaptive and integrated dose reduction strategies. These strategies are implemented at every stage in the scanning process from patient registration through data acquisition, raw data and image reconstruction.

Patient Registration

The system prompts the user to select the appropriate protocol based on patient age, weight and exam type

Dose is displayed on the console prior to scanning for operator confirmation and validation

Aquilion ONE includes the National Electrical Manufacturers Association (NEMA) XR-25 Dose Check requiring dose notification and alert features

The system prompts the user to select the appropriate protocol based on patient age, weight and exam type

Dose is displayed on the console prior to scanning for operator confirmation and validation

Aquilion ONE includes the National Electrical Manufacturers Association (NEMA) XR-25 Dose Check requiring dose notification and alert features

Boost 3D™ improves image quality and lowers dose by selectively reducing noise and streak artifacts from those areas where it is needed

Active Collimation

In Helical scanning, exposure is needed before the start and after the end of the planned scan range in order to reconstruct images at these positions. This over-ranging requires at least one extra rotation, although only a small portion of this data is utilized. Active collimation synchronizes the width of the X-ray beam at the ends of the scan range to the clinically useful area needed for image reconstruction. By eliminating exposure that is not used for diagnosis, patient dose can be reduced.

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